Huidi Yu
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View article: TRIF-TAK1 signaling suppresses caspase-8/3-mediated GSDMD/E activation and pyroptosis in influenza A virus-infected airway epithelial cells
TRIF-TAK1 signaling suppresses caspase-8/3-mediated GSDMD/E activation and pyroptosis in influenza A virus-infected airway epithelial cells Open
Pyroptosis plays an important role in attracting innate immune cells to eliminate infected niches. Our study focuses on how influenza A virus (IAV) infection triggers pyroptosis in respiratory epithelial cells. Here, we report that IAV inf…
View article: Influenza A virus infection activates caspase-8 to enhance innate antiviral immunity by cleaving CYLD and blocking TAK1 and RIG-I deubiquitination
Influenza A virus infection activates caspase-8 to enhance innate antiviral immunity by cleaving CYLD and blocking TAK1 and RIG-I deubiquitination Open
View article: Principal strategies for designing graphdiyne-based catalyst toward green hydrogen production from water electrolysis
Principal strategies for designing graphdiyne-based catalyst toward green hydrogen production from water electrolysis Open
Water electrolysis has attracted significant attention for large-scale production of green hydrogen as next-generation clean fuels. Recently, the development of graphdiyne (GDY), a new member of carbon allotropes, has been promisingly offe…
View article: Industrial status, technological progress, challenges, and prospects of hydrogen energy
Industrial status, technological progress, challenges, and prospects of hydrogen energy Open
View article: Highly Loaded Independent Pt<sup>0</sup> Atoms on Graphdiyne for pH‐General Methanol Oxidation Reaction
Highly Loaded Independent Pt<sup>0</sup> Atoms on Graphdiyne for pH‐General Methanol Oxidation Reaction Open
The emergence of platinum‐based catalysts promotes efficient methanol oxidation reactions (MOR). However, the defects of such noble metal catalysts are high cost, easy poisoning, and limited commercial applications. The efficient utilizati…
View article: Graphdiyne‐Induced Iron Vacancy for Efficient Nitrogen Conversion
Graphdiyne‐Induced Iron Vacancy for Efficient Nitrogen Conversion Open
An iron vacancy‐rich ferroferric oxide/graphdiyne heterostructure (IVR‐FO/GDY) is rationally designed and fabricated for high‐efficiency electrocatalytic nitrogen fixation to ammonia (ENFA). Experimental and theoretical results show that t…
View article: Graphdiyne-based metal atomic catalysts for synthesizing ammonia
Graphdiyne-based metal atomic catalysts for synthesizing ammonia Open
Development of novel catalysts for nitrogen reduction at ambient pressures and temperatures with ultrahigh ammonia (NH3) yield and selectivity is challenging. In this work, an atomic catalyst with separated Pd atoms on graphdiyne (Pd-GDY) …
View article: Graphdiyne Interface Engineering: Highly Active and Selective Ammonia Synthesis
Graphdiyne Interface Engineering: Highly Active and Selective Ammonia Synthesis Open
A freestanding 3D graphdiyne–cobalt nitride (GDY/Co 2 N) with a highly active and selective interface is fabricated for the electrochemical nitrogen reduction reaction (ECNRR). Density function theory calculations reveal that the interface…
View article: Rationally engineered active sites for efficient and durable hydrogen generation
Rationally engineered active sites for efficient and durable hydrogen generation Open
The atomic-level understanding of the electrocatalytic activity is pivotal for developing new metal-free carbon electrocatalysts towards efficient renewable energy conversion. Here, by utilizing the amidated-carbon fibers, we demonstrate a…
View article: Ultrathin Nanosheet of Graphdiyne-Supported Palladium Atom Catalyst for Efficient Hydrogen Production
Ultrathin Nanosheet of Graphdiyne-Supported Palladium Atom Catalyst for Efficient Hydrogen Production Open
View article: Overall water splitting by graphdiyne-exfoliated and -sandwiched layered double-hydroxide nanosheet arrays
Overall water splitting by graphdiyne-exfoliated and -sandwiched layered double-hydroxide nanosheet arrays Open
It is of great urgency to develop efficient, cost-effective, stable and industrially applicable electrocatalysts for renewable energy systems. But there are still few candidate materials. Here we show a bifunctional electrocatalyst, compri…